A magneto-optical recording medium having a writing layer, a switching layer and a readout layer on a substrate, wherein a magnetization direction corresponding to information is written in the writing layer, and the magnetization direction of the writing layer is transferred to the readout layer by a magnet static coupling force from the writing layer at a temperature of at least room temperature, and wherein the writing layer is composed of a plurality of layers which are made of alloys of a rare earth metal and a transition metal and which are exchange-coupled one another, including a layer having rare earth metal dominant magnetization at room temperature and a layer having transition metal dominant magnetization at room temperature.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A magneto-optical recording medium comprising: a writing layer having a plurality of layers which are made of alloys of a rare earth metal and a transition metal and which are exchange-coupled one to another, including a first layer having rare earth metal dominant magnetization at room temperature and a second layer having transition metal dominant magnetization at room temperature; a readout layer disposed on a substrate; and a switching layer disposed between the writing layer and the readout layer, wherein a magnetization direction corresponding to information is written in the writing layer, and a magnetization direction of the writing layer is transferred to the readout layer by a magnet static coupling force at a temperature not lower than room temperature, so the dominant magnetization of the first layer and the dominant magnetization of the second layer point in opposite directions.
2. The magneto-optical recording medium according to claim 1 , wherein a layer in the writing layer, which is closest to the readout layer, has transition metal dominant magnetization at room temperature.
3. The magneto-optical recording medium according to claim 1 , wherein a coercivity of the first layer having rare earth metal dominant magnetization at room temperature is higher than a coercivity of the second layer having transition metal dominant magnetization at room temperature.
4. The magneto-optical recording medium according to claim 1 , wherein among the plurality of layers in the writing layer, a layer having a lowest coercivity at room temperature is made of GdFeCo, GdFe or GdCo.
5. The magneto-optical recording medium according to claim 1 , wherein among the plurality of layers in the writing layer, a layer having a lowest coercivity at room temperature has a coercivity of almost 0.
6. The magneto-optical recording medium according to claim 1 , wherein the writing layer and the readout layer are exchange-coupled each other at room temperature, and at a temperature higher than a predetermined level, the exchange coupling of the writing layer and the readout layer is substantially cutoff, and the magnetization direction of the writing layer is transferred to the readout layer by the magnet static coupling force from the writing layer, and wherein the writing layer includes a low Curie temperature layer having a Curie temperature of not higher than 200 C.
7. The magneto-optical recording medium according to claim 6 , wherein the low Curie temperature layer has a Curie temperature lower than the switching layer.
8. A writing method for a magneto-optical recording medium, comprising: modulating information with a magnetic field modulation system; and writing the information on a magneto-optical recording medium including, a writing layer having a plurality of layers which are made of alloys of a rare earth metal and a transition metal and which are exchange-coupled one to another, including a first layer having rare earth metal dominant magnetization at room temperature and a second layer having transition metal dominant magnetization at room temperature, a readout layer disposed on a substrate, and a switching layer disposed between the writing layer and the readout layer, wherein a magnetization direction corresponding to information is written in the writing layer, and a magnetization direction of the writing layer is transferred to the readout layer by a magnet static coupling force at a temperature not lower than room temperature, so the dominant magnetization of the first layer and the dominant magnetization of the second layer point in opposite directions.
9. The writing method according to claim 8 , wherein a magnetic field intensity for writing is at most 300 Oe.
10. A writing and readout method, comprising: reading information on a magneto-optical recording medium including, a writing layer having a plurality of layers which are made of alloys of a rare earth metal and a transition metal and which are exchange-coupled one to another, including a first layer having rare earth metal dominant magnetization at room temperature and a second layer having transition metal dominant magnetization at room temperature, a readout layer disposed on a substrate, and a switching layer disposed between the writing layer and the readout layer, wherein a magnetization direction corresponding to information is written in the writing layer, and a magnetization direction of the writing layer is transferred to the readout layer by a magnet static coupling force at a temperature not lower than room temperature, so the dominant magnetization of the first layer and the dominant magnetization of the second layer point in opposite directions, wherein the writing layer and the readout layer are exchange-coupled to each other at room temperature, and at a temperature higher than a predetermined level, the exchange coupling of the writing layer and the readout layer is substantially cutoff, and the magnetization direction of the writing layer is transferred to the readout layer by the magnet static coupling force, and wherein the writing layer has a Curie temperature of not higher than 200 C.; and heating at a time of readout a medium at a temperature not lower than the Curie temperature of one layer in the writing layer and not higher than the Curie temperature of another layer in the writing layer.
11. A writing and readout apparatus comprising: a magneto-optical recording medium; and a flying or contact magnetic head, wherein the magneto-optical recording medium includes, a writing layer having a plurality of layers which are made of alloys of a rare earth metal and a transition metal and which are exchange-coupled one to another, including a first layer having rare earth metal dominant magnetization at room temperature and a second layer having transition metal dominant magnetization at room temperature, a readout layer disposed on a substrate, and a switching layer disposed between the writing layer and the readout layer, wherein a magnetization direction corresponding to information is written in the writing layer, and a magnetization direction of the writing layer is transferred to the readout layer by a magnet static coupling force at a temperature not lower than room temperature, so that the dominant magnetization of the first layer and the dominant magnetization of the second layer point in opposite directions.
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May 5, 2000
August 6, 2002
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